4.7 Article

Studies on the synergistic action of methylglyoxal and peroxynitrite on structure and function of human serum albumin

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TAYLOR & FRANCIS INC
DOI: 10.1080/07391102.2021.2003865

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Albumin; glycation; nitroxidation; glyco-nitro-oxidation

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This study explores the simultaneous effect of glycation and nitroxidation on the structure, conformation, and function of albumin. The glyco-nitro-oxidized albumin showed decreased free amino acid content and decreased affinity towards cobalt. The formation of carboxymethyl lysine and 3-nitrotyrosine in glyco-nitro-oxidized albumin was confirmed. This research provides a basis for studying the role of glyco-nitro-oxidized albumin in the pathogenesis and progression of autoimmune diseases, including rheumatoid arthritis.
Albumin, an important serum protein, is continuously exposed to various oxidizing/nitrating and glycating agents. Depending upon the nature/concentration of reactive species present, the protein may be glycated, oxidized/nitroxidized or glyco-nitro-oxidized. Peroxynitrite is a powerful nitroxidant and has been reported to damage a wide array of macromolecules. On the other hand, methylglyoxal is a very strong reactive dicarbonyl and a potent precursor for the formation of advanced glycation end products under pathological conditions. In certain pathological conditions albumin may be modified by peroxynitrite and methylglyoxal simultaneously. There is dearth of literature suggests that structural/conformational and functional alteration in albumin upon glycation and oxidation/nitroxidation, however the alterations produced by glyco-nitro-oxidation has not yet been explored. Therefore, in this study, simultaneous effect of glycation and nitroxidation on the structure and conformation, vis-a-vis function of albumin was explored. Glyco-nitro-oxidized albumin showed decreased free amino acid content together with decreased affinity of albumin towards cobalt. Molecular docking model and molecular dynamic simulations showed close interaction and formation of stable complexes between methylglyoxal, peroxynitrite and albumin. Formation of carboxymethyl lysine and 3-nitrotyrosine in glyco-nitro-oxidized albumin were confirmed by MALDI-TOF MS and UP-LC MS. Aggregate formation in glyco-nitro-oxidized albumin was visualized by transmission electron microscopy. On the basis of these results, it may be speculated that, albumin modified with endogenously generated methylglyoxal and peroxynitrite might be a driving factor in the progression of heightened inflammatory autoimmune responses. The work presents a ground to study the role of glyco-nitro-oxidized albumin in the pathogenesis and progression of various autoimmune diseases including rheumatoid arthritis. Communicated by Ramaswamy H. Sarma

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